# Effects of feeding mycotoxin-contaminated diets and the use of a yeast cell wall extracts mycotoxin adsorbent on ruminal and fecal microbiota of finishing beef steers

**Authors:** Luis Henrique Cursino Batista, Yury Tatiana Granja-Salcedo, Igor Machado Ferreira, Mailza Gonçalves de Souza, Mateus José Inácio de Abreu, Luiz Fernando Costa e Silva, Anne Koontz, Vaughn Holder, James Eugene Pettigrew, Gustavo Rezende Siqueira, Flávio Dutra de Resende

PMC · DOI: 10.3389/fmicb.2025.1675653 · Frontiers in Microbiology · 2025-10-21

## TL;DR

This study shows that mycotoxins in cattle diets disrupt gut microbes, but adding yeast cell wall extract can help restore some microbial functions.

## Contribution

The study demonstrates that yeast cell wall extract mitigates mycotoxin-induced disruptions in rumen microbial communities and metabolic pathways.

## Key findings

- Mycotoxin contamination increased microbial richness and diversity in the rumen.
- YCWE reduced methanogenic archaea and acetate-producing bacteria in the rumen.
- YCWE partially restored disrupted metabolic pathways in mycotoxin-contaminated diets.

## Abstract

This study evaluated the effects of contamination of the beef cattle diet with mycotoxins and the use of yeast cell wall extract based mycotoxin adsorbent(YCWE) on the ruminal and fecal microbial communities.

Eight rumen-cannulated Nellore steers [initial body weight (BW) = 417 ± 42 kg; ± 36 month of age] were used in a 4 × 4 replicated Latin square design. A 2 × 2 factorial treatment structure was used to investigate the effects of mycotoxin contamination of the diet, the addition of YCWE and their interactions. The dietary treatments consisted of: (1) diet without mycotoxins (CTRL), and (2) control diet with added mycotoxins(MYCOT). The second factor was: (1) absence (YCWE−) or (2) presence (YCWE+)of YCWE. The addition of YCWE to the diets was 1 g/kg of dry matter (DM).

In the rumen, MYCOT increased microbial richness and diversity indices (p < 0.01), whereas YCWE decreased richness but increased diversity (p < 0.01). MYCOT contamination also increased the relative abundance of taxa associated with inefficient nitrogen utilization (p < 0.08). YCWE supplementation affected several microbial groups, reducing the abundance of methanogenic archaea and acetateproducing bacteria (p < 0.02). Predicted metabolic pathways indicated that MYCOT impaired several functions related to microbial growth and protein synthesis, while YCWE supplementation in contaminated diets partially restored pathways such aspurine and pyrimidine metabolism (p < 0.05). However, YCWE supplementation inuncontaminated diets reduced pathways linked to protein synthesis (p < 0.05). In feces, MYCOT and YCWE had no effects on richness (p > 0.10), although MYCOT increased diversity (p = 0.01). Treatment effects on predicted metabolic pathways of fecal microbiota were minimal, suggesting a low impact of MYCOT on fecal microorganisms (p > 0.10).

Contamination of beef cattle diets with multiple mycotoxins altered ruminal and fecal microbial richness, diversity, and metabolic pathways, potentially reducing microbial growth and protein synthesis. YCWE mitigated several of these adverse effects, contributing to partial recovery of disrupted metabolic pathways. This study provides evidence that YCWE counteracts the antimicrobial effects of mycotoxins, offering a practical nutritional strategy to preserve rumen functionality.

## Full-text entities

- **Chemicals:** nitrogen (MESH:D009584), pyrimidine (MESH:C030986), MYCOT (-)
- **Species:** Saccharomyces cerevisiae (baker's yeast, species) [taxon 4932], Bos taurus (bovine, species) [taxon 9913]

## Full text

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## Figures

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## References

58 references — full list in the complete paper: https://tomesphere.com/paper/PMC12583975/full.md

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Source: https://tomesphere.com/paper/PMC12583975